Method for sending a data message during a telephone call

ABSTRACT

A method of sending data from a first party participating in a telephone call to a second party participating in the telephone call, comprising, in the terminal of the first party, storing, as a consequence of the telephone call, identifier data that identifies the second party; using the stored identifier data to determine automatically a destination address for a data message; and sending, during the telephone call, the data message with the automatically determined destination address. A method for sending data from a first party participating in a telephone call to a second party participating in the telephone call, comprising, in the terminal of the first party: providing, while the telephone call is on-going, a user selectable option to transfer data to another party participating in the telephone call without user specification of a destination address.

CROSS REFERENCE

This application is a continuation of U.S. patent application Ser. No. 14/087,429, filed on Nov. 22, 2013, which is a continuation of U.S. patent application Ser. No. 10/725,274, filed on Nov. 25, 2003, the contents of both applications being incorporated herein by reference in their entireties.

FIELD OF THE INVENTION

Embodiments of the present invention relate to methods and devices for sending data.

BACKGROUND TO THE INVENTION

At present, if a user wishes, for example, to send a text message, the user must enter a text messaging application, write the message and then specify the address to which it should be sent before sending the messaging.

It would be desirable to improve the ease with which a user can send data using a mobile telephone.

BRIEF DESCRIPTION OF THE INVENTION

The inventors realised that the process by which data is sent by a mobile cellular telephone can be improved when the telephone is participating in a telephone call.

The inventors realised that when a party to an on-going telephone call wishes to send data during the telephone call, they will often wish to send that data to the other party or parties participating in the on-going telephone call.

According to one embodiment there is provided a method of sending data from a first party participating in a telephone call to a second party participating in the telephone call, comprising, in the terminal of the first party; storing, as a consequence of the telephone call, identifier data that identifies the second party; and using the stored identifier data to determine automatically a destination address for a data message; and sending, during the telephone call, the data message with the automatically determined destination address.

According to another embodiment there is provided a mobile cellular telephone terminal comprising: a radio cellular transceiver for enabling participation in a telephone call to a second terminal; a memory; and control means for storing in the memory, as a consequence of the telephone call, identifier data identifying the second terminal or its user, for determining automatically a destination address for a data message using the stored identifier data and for controlling the radio cellular transceiver to send the data message with the automatically determined destination address during the telephone call.

According to another embodiment there is provided a method for sending data from a first party participating in a telephone call to a second party participating in the telephone call, comprising, in the terminal of the first party: providing, while the telephone call is on-going, a user selectable option to transfer data to another party participating in the telephone call without user specification of a destination address.

According to another embodiment there is provided a mobile cellular telephone terminal comprising: a radio cellular transceiver for enabling participation in a telephone call to a second terminal; a user interface; and control means for providing, temporarily while the telephone call is on-going, in the user interface a user selectable option to transfer data to another party participating in the telephone call without user specification of a destination address.

Embodiments of the invention therefore provide an easier and faster way to send data to a likely recipient during a telephone call.

According to another embodiment there is provided a method of sending data from a first party to a second party, comprising, in the terminal of the first party: storing, as a consequence of a communication between the first party and the second party, identifier data that identifies the second party; using, subsequent to the communication between the first party and the second party, the stored identifier data to determine automatically a destination address for a data message; and sending the data message with the automatically determined destination address.

According to another embodiment there is provided a mobile communications terminal comprising: a radio cellular transceiver for enabling communication with a second terminal; a memory; and control means for storing in the memory, as a consequence of the communication, identifier data identifying the second terminal or its user, for determining automatically a destination address for a data message using the stored identifier data, and for controlling the radio cellular transceiver to send the data message with the automatically determined destination address.

BRIEF DESCIPTION OF THE DRAWINGS

For a better understanding of the present invention reference will now be made by way of example only to the accompanying drawings in which:

FIG. 1 illustrates a mobile cellular radio telecommunications network 2;

FIG. 2 illustrates the first mobile cellular telephone terminal 6 in more detail;

FIG. 3 illustrates the process by which data is sent by the first terminal to the second terminal while it is participating in a telephone call with the second terminal; and

FIG. 4 illustrates an alternative process by which data is sent by the first terminal to the second terminal while it is participating in a telephone call with the second terminal.

DETAILED DESCRIPTION OF EMBODIMENTS OF THE INVENTION

FIG. 1 illustrates a mobile cellular radio telecommunications network 2. The network 2 comprises network infrastructure 4 that typically includes a switching centre connected to a plurality of base transceiver stations, a first cellular mobile telephone terminal 6 and a second cellular mobile telephone terminal 8. In other embodiments, the network 2 may be connected to the public service telephone network (PSTN) and the second terminal 8 may be a telephone terminal or a computer terminal. The first mobile cellular telephone terminal 6 is used by a first user 12 and the second terminal 8 is used by a second user 14.

FIG. 2 illustrates the first mobile cellular telephone terminal 6 in more detail. It comprises: a radio cellular transceiver 20; a memory 22; a user interface 24 and a control means 30.

The user interface 24 includes a display 25, a user selection device 26 such a keypad or joystick, an audio input device 27 and an audio output device 28.

The control means 30 is provided, in this example, by a suitably programmed processor. The processor 30 is connected to provide information to and receive information from the radio cellular transceiver 20. This information includes speech and, may, in some embodiments, include data. The processor 30 is connected to read to and to write from the memory 22. The processor 30 is connected to provide display control signals to the display 25 and receive control signals from the selection device 26. During a telephone call, it also provides speech information received from the radio cellular transceiver 20 to the audio output device 28 and provides speech information received from the audio input device 27 to the radio cellular transceiver 20. In other embodiments one or more processors and one or more memories may be used.

The radio cellular transceiver 20 communicates wirelessly with the infrastructure 4 of the mobile cellular radio telecommunications network 2. This communication enables the terminal 6 to participate in a telephone call with the second terminal 8. The radio cellular transceiver 20 may additionally enable the first terminal 6 to communicate data to the second terminal 8. This may, for example, be as a multimedia messaging service (MMS) message, a short messaging service (SMS) message or as an email message. In other alternative embodiments, the first terminal may comprise an additional transceiver (not shown) for communicating with the second terminal. Such a transceiver is preferably a short-range wireless transceiver such as an infra-red (IR) transceiver of a low power radio frequency transceiver such as a Bluetooth (trademark) transceiver.

FIG. 3 illustrates the process by which data is sent by the first terminal 6 to the second terminal 8 while it is participating in a telephone call with the second terminal 8. The first user 12 and second user 14 are respective first and second parties to the telephone call. The process occurs within the first terminal 6 and is controlled by the processor 30.

In this example, the call is initiated by the first terminal 6 at step 100. As a consequence of the telephone call the processor 30, at step 102, automatically stores identifier data identifying the destination of the telephone call in the memory 22. In this case, the destination is the second terminal 8 or its user 14. If the telephone call is a circuit switched telephone call, the identifier data is the telephone number of the second party 14 and the memory 22 is a memory for storing dialled telephone numbers.

If during the telephone call the first party 12 wishes to send a data message to the other party 14, she makes a selection at step 104. The processor 30 responds to this selection at step 106 by controlling the display to provide a number of alternative user selectable options. The provided options depend upon the application from which the selection at step 104 is made. However, at least one option is “send to caller”, the selection of which at step 108 enables a data message to be sent without the user input of a destination address.

The application is preferably context aware in the sense that it is aware that a telephone call is ongoing and the provided options are temporarily adapted to include “send to caller” as an additional option while the telephone call is on-going. This may be achieved by setting a flag in the memory 22 to indicate whether a call is on-going or not. The processor 30 responds to the selection at step 106 by reading the flag from the memory 22. If the flag indicates that a telephone call is not on-going the options provided at step 106 include the option “send” but not the “send to caller” option. Selection of the “send” option enables a data message to be sent after the user has input a destination address. If the flag indicates that a telephone call is on-going the options provided at step 106 include the option “send to caller” in addition to the option “send”, thus augmenting the provided options.

One type of application is a data handling application such as a calendar application that stores appointments. The selection at step 104 enables a user to send details of an appointment as a data message. The selection at step 108 enables a user to send details of an appointment as a data message to the other party participating in an on-going telephone call without inputting the destination address. Another type of data handling message is a contacts application that stores contact details as a series of entries. Each entry may include a postal address, telephone numbers and email addresses. The selection at step 104 enables a user to send details from an entry as a data message. The selection at step 108 enables a user to send details from an entry as a data message to the other party participating in an on-going telephone call without inputting the destination address.

Another type of application is a data creation application such as a text entry application, a video camera application or a digital camera application. The selection at step 104 enables a user to send respectively text, a video clip or an image as a data message. The selection at step 108 enables a user to send respectively text, a video clip or an image as a data message to the other party participating in an on-going telephone call without inputting the destination address.

When the “send to caller” option is selected at step 108, the processor 30 at step 110 automatically determines a destination address for the data message using the identifier data stored at step 102. The processor 30 automatically interrogates a database using the telephone number stored at step 102 to obtain the destination address. The database associates different telephone numbers with the data delivery addresses of different persons. Each different identifier data is associated with the data delivery addresses of one person such as their email address, their telephone number, or their Bluetooth device address. The database may be the same database used by the Contacts application.

Then having determined the data delivery addresses, the processor 30 at step 112 controls the display to present for user selection one or more delivery mechanisms related to the determined delivery addresses.

If the determined delivery addresses includes a mobile telephone number, the delivery mechanisms may include: Short Messaging Service (SMS) which is suitable for alphanumeric text or Multimedia Messaging Service (MMS) which is suitable for still images.

The delivery mechanisms presented may be related to the application from which the selection has been made. Thus SMS is only presented if the selection is from an application that is text-based such as a Calendar, Contacts or text messaging. Thus MMS is only presented if the selection is from an application that is image-based such a digital camera application or an application that has the ability to insert images therein.

If the determined delivery addresses includes an email address the delivery mechanisms may include email, which is suitable for having text or mark-up language as its body and files as attachments, such as image or video files.

If the determined delivery addresses includes a Bluetooth Device address the delivery mechanism will include packet data.

At step 114 the user selects one of the presented delivery mechanisms.

At step 116, the processor controls the sending of the data message by the selected delivery mechanism using the destination address determined at step 110. The data message is sent via a new channel that runs in parallel with the voice channel used for the telephone call. If the data message is sent using the radio cellular transceiver it may be sent on a separate or the same transport layer to the voice call.

If there is only a single data delivery mechanism available steps 112 and 114 may be automated.

FIG. 4 also illustrates the process by which data is sent by the first terminal to the second terminal while it is participating in a telephone call with the second terminal. The steps 106 to 116 are the same, the steps 100′ and 102′ are different to the steps 100 and 102 in FIG. 3. In this example, the call is initiated by the first terminal at step 100′. As a consequence of the telephone call, at step 102′, the processor 30 automatically stores identifier data identifying the origin of the telephone call in the memory. In this case, the destination is the second terminal or its user. If the telephone call is a circuit switched telephone call, the identifier data is the telephone number of the second party received via the radio cellular transceiver using call line identification (CLI) or its equivalent. However, when the “send to caller” option is selected at step 108, the processor 30 at step 110 automatically determines a destination address for a data message using the identifier data stored at step 102′ not step 102.

In the preceding examples, data is sent by the first terminal to the second terminal while it is participating in a telephone call with the second terminal and the phone automatically presents the option “send to caller”. In another example, data is sent by the first terminal to the second terminal after participation in a telephone call with the second terminal. This may occur while the first terminal is not participating in any telephone call or it may occur while the first terminal is participating in a telephone call with a third terminal. The phone may automatically present an option to “send to the last caller”. The last caller may have originated or terminated the call with the first terminal.

Although embodiments of the present invention have been described in the preceding paragraphs with reference to various examples, it should be appreciated that modifications to the examples given can be made without departing from the scope of the invention as claimed. 

The invention claimed is:
 1. An apparatus, comprising: at least one processor; and at least one memory including computer program code, the at least one memory and the computer program code configured to, with the at least one processor, cause the apparatus to at least: initiate a wireless voice call between a first party and a second party; present, to the first party, one or more options to communicate data from the first party to the second party while the wireless voice call is ongoing, each presented option using at least one application to provide a delivery mechanism for a delivery address of the second party; detect, during the wireless voice call, a selection made by the first party of the one or more presented options to communicate data from the first party, to the second party; and send, during the wireless voice call, the data to the second party using the at least one application associated with the selected delivery mechanism.
 2. The apparatus of claim 1, wherein the selection made by the first party to communicate data from the first party to the second party is based on delivery address information.
 3. The apparatus of claim 2, wherein the delivery address information comprises an identifier for the second party obtained from a contacts database.
 4. The apparatus of claim 3, wherein the identifier for the second party comprises one or more of a telephone number, an e-mail address, and a Bluetooth device address.
 5. The apparatus of claim 1, wherein the delivery mechanism is related to the application from which the selection is made.
 6. The apparatus of claim 1, wherein the delivery mechanism comprises a Short Messaging Service (SMS) or a Multimedia Messaging Service (MMS).
 7. The apparatus of claim 1, the at least one memory and the computer program code configured to, with the at least one processor, further cause the apparatus to: send the data to the second party over a channel parallel to a voice channel used for the wireless voice call.
 8. The apparatus of claim 1, wherein the selection made by the first party of the one or more presented options to communicate data from the first party to the second party is made without a user inputting the determined delivery address of the second party.
 9. The apparatus of claim 1, the at least one memory and the computer program code configured to, with the at least one processer, further cause the apparatus to: determine the delivery address information associated with at least one application for communicating data from the first party to the second party.
 10. A method, comprising: presenting, during a wireless voice call between a first party and a second party, for at least one delivery address for the second party, at least one option to communicate data from the first party to the second party during the wireless voice call, each presented option using an associated application to provide a delivery mechanism for the at least one delivery address; detecting, during the wireless voice call between the first party and the second party, a selection of the at least one presented option to communicate data from the first party to the second party; and sending, during the wireless voice call, the data to the second party using the application associated with the selected delivery mechanism.
 11. The method of claim 10, wherein the data is sent using a transport layer that is different from the transport layer used for the wireless voice call.
 12. The method of claim 11, wherein the different transport layer used to send the data is a data channel parallel to the transport layer used for the wireless voice call.
 13. The method of claim 10, wherein the delivery address is determined using an identifier for the second party from a contact list of the application presenting the at least one option to communicate data from the first party to the second party.
 14. The method of claim 10, wherein the delivery address is determined using an identifier for the second party from a database identifying the second party from one or more of a telephone number, an e-mail address, and a Bluetooth device address.
 15. A non-transitory computer program product comprising a non-transitory computer-readable storage medium, the non-transitory computer-readable storage medium bearing computer program code for use with a computer, the computer program code comprising: code for initiating a wireless voice call between a first party and a second party; code for presenting one or more options to communicate data from the first party to the second party during the wireless voice call, each presented option using one of the at least one application to provide a delivery mechanism for a delivery address of the second party; code for detecting, during the wireless voice call, a selection of the one or more presented options to communicate data to the second party; and code for sending, during the wireless voice call, the data from the first party to the second party using the at least one application associated with the selected delivery mechanism. 